Die 4 Haupt GANSe und Aminosäuren
Der erste Schritt, bevor wir damit beginnen GANSe zu machen, ist das Nano-Beschichten. Unsere Haupt GANSe sind CO2, ZnO, CuO and CH3. Die Aminosäuren davon sind ebenfalls sehr wichtig.
Inhaltsverzeichnis
Zur GANS Herstellung wird benötigt:
- Plastikbox
- (Destilliertes) Water
- Unrafiniertes, natürliches Meer- oder Steinsalz (oder pharmazeutisches NaCL für Gesundheitsanwendungen)
- Nano-beschichtete Kupfer (oder Zinc) Drähte zum verbinden der Platten/Spulen
- Nano-beschichtete Kupfer Platten/Spulen (für ZnO GANS eine Nano-beschichtete Zink Platte/Spule)
- Unterschiedliche nicht-beschichtete Platten/Spulen (Zink für CO2 and ZnO, Kupfer für CuO and verzinktes Eisen für CH3)
GANS | Color | Coated Material | Uncoated Material | Salt content |
---|---|---|---|---|
CO2 (ZnO + CO2) | cremig weiß | Nano-beschichtetes Kupfer | Zinc | 3-10% |
ZnO | white | Nano-beschichtetes Zink | Zinc | 3-10% |
CH3 (FeO + CH3) | reddish brown | Nano-beschichtetes Kupfer | Zinc-coated Iron | 3-10% |
CuO (CuO + Cu) | turquoise | Nano-beschichtetes Kupfer | Copper | 3-10% |
Als gut erprobt, hat sich ein durchschnittlicher Salzgehalt von 5% für die Produktion von GANS herausgestellt. Wichtige Informationen über Salz.
WICHTIG: Wenn man unterschiedliche GANSe zur gleichen Zeit produziert, sollte man zwischen den Plastikboxen einen Abstand von mindestens 3 Metern halten (am besten 5). Je näher die Produktionen nebeneinander stehen, desto mehr werden die Felder der unterschiedlichen GANSe miteinander vermischt. (Die unterschiedlichen Metalle unterschiedlicher GANS Produktionen wirken wie ein Magnet und ziehen andere Felder der Umgebung an.)
CO2 GANS / Basic Box setup
See also: CO2 GANS
The (plastic) box is the basic for creating every GANS production of the 4 main GANSes (Picture below). It basicaly filled up with 5% Salt-water. This Salt content has proven to be very well for all basic applications.The plates should hang around 80% in the water and 2 cm above the bottom of the box. The mounted holder wires on the picture, should be placed at least 0.5 cm over the water. (Especially the non Nano-coated Copper wire should not touch the water, because it can have the unwanted effect on the production, that CuO GANS is made too). The two connection wires, get connected with an green led. The longer pole (+) gets connected with the Nano-coated Copper plate and the shorter pole (-) gets connected in this case of a CO2 production, with the not Nano-coated Zinc plate connection wire.
When we speak about CO2 GANS, there is everytime a amount of ZnO in it too. The use of a green led, to connect the connecting cables allows a high yield of CO2 in the ratio 90:10 to ZnO and the GANS looks creamy white.The ZnO cannot be eliminated completely from the GANS mixture when creating CO2 GANS, but this is of no consequence. (There is also the opportunity to make it without led, but the the ratio of CO2/ZnO GANS is then 20:80. Read more: CO2 GANS)
- GANS basic box setup (CO2).png
(CO2) GANS basic box setup
- CO2 GANS bottle.jpg
CO2 GANS bottle
- CO2 Amino Acids.jpg
CO2 Amino Acids
[In the other GANS productions (ZnO, CuO, CH3) other combinations of plates are used and for the case, you don't have Copper wires or Zinc wires, or Nano-coated wires, it should not stop you, using that, what you have. It's just fine tuning for a very propper GANS. By CO2 GANS, a led is important for preferably high yield of CO2, but if you don't have it, you can also twist the two connection wires just counter clockwise together, as at the other GANS productions too. For CO2 do not use additional electricity.]
ZnO GANS
See also: ZnO GANS
For producing Zinc GANS we use a Nano-coated Zinc plate and a normal Zinc plate and connect it with wires and a led between. Some use current for this production. On the surface of the water Amino Acids are created, which get collected seperatly. Only for this GANS, we use instead of a (Nano-coated) Copper wire a (Nano-coated) Zinc wire. The connection wire (Nano-coated Zinc) from the Nano-coated Zinc plate is connected with the + pole of the led and the - pole of the led, is connected with the Zinc wire to the Zinc plate.- ZnO GANS production Amino Acid.jpg
ZnO GANS production Amino Acid
- ZnO GANS bottles.jpg
ZnO GANS production Amino Acid
CuO GANS
See also: CuO GANS
For CuO use a Nano-coated Copper plate and a not Nano-coated Copper plate and you can use Copper wires or Nano-coated Copper wires to connect it with an led between. If you use current for producing the GANS, its too much and you have to use an air pump too.- CuO GANS production.jpg
CuO GANS production
- CuO GANS production bottom.jpg
CuO GANS production bottom
- CuO GANS bottle.jpg
CuO GANS bottle
CH3 GANS
See also: CH3 GANS
On the left side you have the Nano-coated Copper plate and on the right side the with Zinc galvanized Iron plate. It's connected with Nano-coated Copper wire and an Copper wire, also with a led. Current can be used.
At first the Zinc, from the with Zinc galvaniced Iron pate will interact with the Nano-coated Copper and like in the CO2 production, CO2 GANS and the Amino Acid of it will be produced. After a few days, depending on the whole setup and environment, the redish/brown CH3 GANS production will be start and visible. You can let the creamish white CO2 GANS sediments inside and allow them to be mixed up with the redish/brown CH3 GANS sediments.
- CH3 GANS production.jpg
CH3 GANS production
- CH3 GANS Bottle.jpg
CH3 GANS Bottle